Method for connecting flat film cables

ABSTRACT

The invention relates to a method of connecting two flat laminated cable ends. A metal strip tin-plated with a solder coating is placed transversely over the conductor tracks between the two flat laminated cable ends, the flat laminated cable ends are pressed onto each other with the tin-plated metal strip lying in between, current is applied to the metal strip and it is heated until the solder of the metal strip melts and enters into a soldered connection with the conductor tracks of the flat laminated cables, and, after the soldered connection, the metal strip is separated in the intermediate spaces between two neighboring conductor tracks.

[0001] The invention relates to a method with the features of the independent claim.

[0002] In motor vehicle construction, so-called flat laminated cables or FLCs are being used increasingly frequently. The English term has been adopted internationally. Flat laminated cables are accordingly understood as meaning flat cables in which a multiplicity of parallel film-like conductor tracks are arranged between two insulating plastic laminates. The reliable and permanent connection of two flat laminated cable ends constitutes the subject matter of the invention described here.

[0003] In JP 07326404 A, Patent Abstracts of Japan (CD-ROM), Vol. 95, No. 12, it has been proposed for connecting flat laminated cables to incorporate electrically conducting powder in the plastic laminate at the cable ends. For connection, the flat laminated cables are laid exactly one on top of the other at their ends, so that the conductor tracks of one cable come to lie over the conductor tracks of the other cable. The cable ends are then pressed onto each other and heated, so that the plastic laminate over the conductor tracks melts locally and the incorporated metal powder establishes the electrical contact between the assigned conductor tracks.

[0004] In JP 11149951 A, Patent Abstracts of Japan 1999, it is proposed to prefabricate the ends of flat laminated cables to make it possible for two flat laminated cables to be connected. The flat laminated cable ends are stripped of insulation on one side, so that the conductor tracks protrude bare from the film substrates. Moreover, the conductor tracks are angled away at the ends of the flat laminated cable approximately by an angle of 45° with respect to the longitudinal direction of the flat laminated cable. As a result, when the stripped sides of two flat laminated cable ends are laid one on top of the other, the conductor tracks of the first flat laminated cable cross over the conductor tracks of the second flat laminated cable. By virtue of the crossing of the conductor tracks, the two flat laminated cables do not have to be aligned exactly flush to allow the conductor tracks to be connected to one another.

[0005] For cabling electrical devices in motor vehicles, these methods of connection are only suitable if the length of the flat laminated cable is prefabricated. If the length of the flat laminated cable has to be shortened just slightly, or a longer flat laminated cable is required, the ends of the flat laminated cables can no longer be connected by the methods described above.

[0006] Therefore, the object according to the invention is to provide a method of connecting two flat laminated cables in which flat laminated cables as roll stock can be used, and the ends of the flat laminated cables can be connected without these ends being prefabricated.

[0007] According to the invention, this object is achieved by the features of the independent claim. Further advantageous embodiments are contained in the subclaims.

[0008] The solution is accordingly accomplished by placing a metal strip tin-plated with a solder coating transversely over the conductor tracks between the two flat laminated cable ends, pressing the flat laminated cable ends onto each other with the tin-plated metal strip lying in between, applying current to the metal strip and heating it until the solder of the metal strip melts and enters into a soldered connection with the conductor tracks of the flat laminated cables, and, after the soldered connection, separating the metal strip in the intermediate spaces between two neighboring conductor tracks.

[0009] The advantage that can primarily be accomplished by the invention is seen in the simple and successfully proven soldered connection of the conductor tracks to one another. Soldered connections, in particular soft-soldered connections, can be reliably and permanently produced even at temperatures below 230° C. Since the heat transmission from the tin-plated metal strip to the conductor tracks is particularly great at the point at which it rests on them, the flat laminated cable is locally heated, as desired, particularly at the location of the conductor tracks to be connected. Therefore, melting of the plastic laminate over a large surface area does not take place and the insulating and protecting function of the plastic laminate is preserved even in the connecting region of the two flat laminated cable ends.

[0010] Exemplary embodiments of the invention are presented and explained in more detail below on the basis of drawings, in which:

[0011]FIG. 1 shows an exploded representation of two flat laminated cable ends with a metal strip, which is at least partly covered with a solder coating,

[0012]FIG. 2 shows a side view of the connecting point in sectional representation,

[0013]FIG. 3 shows a three-dimensional representation of a finished connection with punched holes between the conductor tracks.

[0014]FIG. 1 shows two flat laminated cable ends 1, which are to be connected to each other. In a multi-layered plastic laminate 3, a multiplicity of film-like conductor tracks 2 are arranged in each flat laminated cable. In the exemplary embodiment shown, 3 conductor tracks are arranged by way of example in each flat laminated cable. Flat laminated cables with 5 or 10 conductor tracks also exist and can likewise be connected to each other by the method according to the invention. For connecting the cable ends, these have to overlap with their ends over a certain length L. There are no prescribed values for the length of overlap L. For practical handling, lengths of overlap in the centimeter range have proven successful. In the overlapping region, the flat laminated cable ends are respectively stripped of insulation on one side, so that in this overlapping region the metal strips protrude with a free metallic surface out of the laminate. Before the flat laminated cable ends are connected, a metal strip 4 tin-plated completely with a solder coating is placed between the cable ends to be connected, in the region of the overlap. The metal strip 4 is placed transversely over the cable ends, so that it crosses the conductor tracks 2 as far as possible at right angles and overhangs on the longitudinal sides of the cable ends.

[0015] If the number of conductor tracks in the flat laminated cables is known in advance, it is possible in an alternative embodiment for the tin-plated metal strip to be provided with solder points 5, which either replace or locally reinforce the solder coating of the metal strip. The spacing of the solder points 5 must then be made to match the spacings of the conductor tracks 2 in the flat laminated cables. The tin-plated metal strip 4 must then also be positioned between the cable ends in such a way that the solder points 5 come to lie over the conductor tracks 2.

[0016] When the metal strip 2 tin-plated with a solder has been positioned between the flat laminated cable ends 1, the previously prepared flat laminated cable ends, stripped of insulation on one side, can be laid one on top of the other in the overlapping region with a form fit and fixed, for example by a clamping device represented in FIG. 2. In a further method step, current supply lines 7 are attached to the two overhanging ends 6 of the metal strip 4. Since these current supply lines are required only for a short time, it is practical for them to be respectively attached to the two ends of the tin-plated metal strip 4 by a clamping connector 8. A power supply unit 9, represented by way of example and having integrated power electronics, serves for supplying current, for controlling the current supply and for wiring the supply lines.

[0017] The further method steps according to the invention are explained on the basis of FIG. 2. When the preparatory method steps in connection with FIG. 1 have been completed, the actual connecting of the flat laminated cable ends 1 can take place. In FIG. 2, the flat laminated cable ends 1 are shown in a sectional representation with a view from the longitudinal sides of the flat laminated cables. The conductor tracks 2 are embedded in a plastic laminate 3. Only in the overlapping region of the flat laminated cable ends has a layer of the plastic laminate been removed respectively at each end, so that the conductor tracks are raised on the remaining second plastic laminate layer, protruding with a free stripped surface. In the sectional diagram, this produces a three-layered construction of the flat laminated cable. In a way corresponding to the preparatory measures, the cable ends are laid one on top of the other in an overlapping way with a form fit and fixed with a clamping device 10, with a tin-plated metal strip arranged between the cable ends.

[0018] For connecting the conductor tracks, current is applied to the metal strip 4 tin-plated with solder, so that it heats up. The metal conductor is initially heated up to the soldering temperature of the solder coating used, until a soldered connection has respectively formed between the lower and upper conductor tracks 2 and the metal strip 4. To assist the soldered connection, the two flat laminated cable ends may be pressed onto each other with a force F by a clamping device 10. The current flow in the metal strip 4 can then be switched off again, so that the soldered connections can solidify.

[0019] In a final method step, for the explanation of which FIG. 3 is used, the metal strip 4 is separated by punched-out clearances 11 in the region of the plastic laminate portions separating the conductor tracks, and the ends of the metal strip 4 overhanging on the longitudinal sides are cut off. Since, once the soldered connection has taken place, the metal strip 4 bridges the individual conductor tracks 2 of the flat laminated cable also in the transverse direction and consequently short-circuits it, this short circuit between the conductor tracks must be broken again. For this purpose, the metal strip is separated at a suitable location between the conductor tracks, for example by punching clearances into it. The punching tools are not represented. The punching tools are expediently already integrated in the clamping device 10 represented in FIG. 2. 

1. A method of connecting two flat laminated cable ends (1), in which a multiplicity of film-like conductor tracks (2) are arranged in a plastic laminate (3), comprising: a) a preparatory method step, in which, in the overlapping region (L) of the two flat laminated cable ends (1) stripped of insulation on one side, a metal strip (4) at least partly covered with a solder coating (5) is placed transversely in relation to the conductor tracks (2) between the flat laminated cable ends (1) laid one on top of the other with a form fit and is connected at its overhanging ends to a controllable current supply (9), b) a method step for producing soldered connections between respectively all conductor tracks (2) to be connected and the metal strip (4), in which the metal strip (4) is heated to the melting temperature of the solder coating (5) by applying current, until a soldered connection has formed respectively between all the conductor tracks (4) to be connected and the metal strip (4) lying in between and, after the soldered connection has formed, the current supply (9) is disconnected, c) a concluding method step, in which the metal strip (4) is separated in the region of the plastic laminate portions separating the conductor tracks (2).
 2. The method as claimed in claim 1, wherein, in the concluding method step, the metal strip (4) is separated by punched clearances (11) in the region of the plastic laminate portions separating the conductor tracks.
 3. The method as claimed in claim 1 or 2, wherein the metal strip (4) is completely covered with a solder coating (5).
 4. The method as claimed in claim 1 or 2, wherein the metal strip (4) is only partly covered with solder points (5). 